Rational and Applied Mechanics
portes grátis
Rational and Applied Mechanics
Volume 1. Complete General Course for Students of Engineering
Alimov, A. R.; Zegzhda, Sergey Andreevich; Tovstik, Petr Evgenievich; Sinilshchikova, G. A.; Yushkov, Mikhail Petrovich; Bukashkina, O. S.; Polyakhov, Nikolai Nikolaevich; Belkind, E. L.
Springer Nature Switzerland AG
08/2021
520
Dura
Inglês
9783030640606
15 a 20 dias
969
Descrição não disponível.
Introduction.- SECTION I. KINEMATICS.- Point kinematics.- Kinematics of the rigid solid.- Composite motion.- SECTION II. DYNAMICS.GENERAL ASPECTS OF THEORETICAL MECHANICS. FUNDAMENTALS OF ANALYTICAL MECHANICS.- Particle dynamics.- System dynamics.- Constrained motion.- Small oscillations of systems.- Dynamics of the rigid solid.- Variational.- principles in mechanics.- Statics.- Integration of equations in mechanics.- Elements of the special relativity theory.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Analytical Mechanics;Stability of Motion;Nonlinear Oscillations;Dynamics and Statics of the Stewart Platform;Mechanics Under Random Forces;Elements of Control Theory;Relations between Nonholonomic Mechanics and the Control Theory;Vibration and Autobalancing of Rotor Systems;Physical Theory of Impact;Statics and Dynamics of a Thin Rod
Introduction.- SECTION I. KINEMATICS.- Point kinematics.- Kinematics of the rigid solid.- Composite motion.- SECTION II. DYNAMICS.GENERAL ASPECTS OF THEORETICAL MECHANICS. FUNDAMENTALS OF ANALYTICAL MECHANICS.- Particle dynamics.- System dynamics.- Constrained motion.- Small oscillations of systems.- Dynamics of the rigid solid.- Variational.- principles in mechanics.- Statics.- Integration of equations in mechanics.- Elements of the special relativity theory.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Analytical Mechanics;Stability of Motion;Nonlinear Oscillations;Dynamics and Statics of the Stewart Platform;Mechanics Under Random Forces;Elements of Control Theory;Relations between Nonholonomic Mechanics and the Control Theory;Vibration and Autobalancing of Rotor Systems;Physical Theory of Impact;Statics and Dynamics of a Thin Rod